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    University - Student Department: School of Medicine Position: Graduate, Medicine

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  • Field-effect-informed urine liquid biopsy for bladder cancer. Cell Shi, W. Y., Liu, K. J., Esfahani, M. S., Mach, K. E., Phillips, N. A., Almanza, D., Bajpai, R. K., Schroers-Martin, J. G., Trabanino, L., Lee, T. J., La, V., Rodriguez, G., Holton, G., Chen, S. B., Mullane, P., Wu, D. J., Nesselbush, M. C., Sugio, T., Cheng, J. C., Jabara, I., Hamilton, E. G., Alig, S. K., Liu, C. L., Peterson, D. J., Prado, K., Shkolyar, E., Thong, A., Shah, J. B., Gill, H., Kunder, C. A., Chan, E., Khaki, A. R., Skinner, E. C., Alizadeh, A. A., Liao, J. C., Diehn, M. 2026

    Abstract

    Only some non-muscle-invasive bladder cancer (NMIBC) patients benefit from intravesical Bacillus Calmette-Guérin (BCG), and predictive biomarkers remain lacking. While urine tumor DNA (utDNA) analysis is promising, mutations in tumor-adjacent normal urothelium, namely the field effect, limit specificity. Here, we show that the prevalence of somatic mutations in the urine increases with age. We introduce an improved utDNA minimal residual disease (MRD) approach that increases specificity by removing field-effect mutations. Applying this field-effect-informed MRD approach to 261 samples from NMIBC patients undergoing surgery and adjuvant BCG, we identify three molecular response classes, including surgical responders, BCG responders, and non-responders. Molecular predictors of response to the two treatments differ, with pre-existing immune activation and higher mutation burden enriched in BCG but not surgery responders. These findings highlight the potential of field-effect-informed liquid biopsy methods for guiding personalized therapy and uncovering biomarkers for individual components of multimodal treatments.

    View details for DOI 10.1016/j.cell.2025.12.054

    View details for PubMedID 41605210